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authorKenneth Heafield <github@kheafield.com>2012-10-22 12:07:20 +0100
committerKenneth Heafield <github@kheafield.com>2012-10-22 12:07:20 +0100
commit5f98fe5c4f2a2090eeb9d30c030305a70a8347d1 (patch)
tree9b6002f850e6dea1e3400c6b19bb31a9cdf3067f /gi/pf/cfg_wfst_composer.cc
parentcf9994131993b40be62e90e213b1e11e6b550143 (diff)
parent21825a09d97c2e0afd20512f306fb25fed55e529 (diff)
Merge remote branch 'upstream/master'
Conflicts: Jamroot bjam decoder/Jamfile decoder/cdec.cc dpmert/Jamfile jam-files/sanity.jam klm/lm/Jamfile klm/util/Jamfile mira/Jamfile
Diffstat (limited to 'gi/pf/cfg_wfst_composer.cc')
-rw-r--r--gi/pf/cfg_wfst_composer.cc731
1 files changed, 0 insertions, 731 deletions
diff --git a/gi/pf/cfg_wfst_composer.cc b/gi/pf/cfg_wfst_composer.cc
deleted file mode 100644
index 21d5ec5b..00000000
--- a/gi/pf/cfg_wfst_composer.cc
+++ /dev/null
@@ -1,731 +0,0 @@
-#include "cfg_wfst_composer.h"
-
-#include <iostream>
-#include <fstream>
-#include <map>
-#include <queue>
-#include <tr1/unordered_map>
-#include <tr1/unordered_set>
-
-#include <boost/shared_ptr.hpp>
-#include <boost/program_options.hpp>
-#include <boost/program_options/variables_map.hpp>
-#include "fast_lexical_cast.hpp"
-
-#include "phrasetable_fst.h"
-#include "sparse_vector.h"
-#include "tdict.h"
-#include "hg.h"
-#include "hg_remove_eps.h"
-
-namespace po = boost::program_options;
-using namespace std;
-using namespace std::tr1;
-
-WFSTNode::~WFSTNode() {}
-WFST::~WFST() {}
-
-// Define the following macro if you want to see lots of debugging output
-// when you run the chart parser
-#undef DEBUG_CHART_PARSER
-
-// A few constants used by the chart parser ///////////////
-static const int kMAX_NODES = 2000000;
-static const string kPHRASE_STRING = "X";
-static bool constants_need_init = true;
-static WordID kUNIQUE_START;
-static WordID kPHRASE;
-static TRulePtr kX1X2;
-static TRulePtr kX1;
-static WordID kEPS;
-static TRulePtr kEPSRule;
-
-static void InitializeConstants() {
- if (constants_need_init) {
- kPHRASE = TD::Convert(kPHRASE_STRING) * -1;
- kUNIQUE_START = TD::Convert("S") * -1;
- kX1X2.reset(new TRule("[X] ||| [X,1] [X,2] ||| [X,1] [X,2]"));
- kX1.reset(new TRule("[X] ||| [X,1] ||| [X,1]"));
- kEPSRule.reset(new TRule("[X] ||| <eps> ||| <eps>"));
- kEPS = TD::Convert("<eps>");
- constants_need_init = false;
- }
-}
-////////////////////////////////////////////////////////////
-
-class EGrammarNode {
- friend bool CFG_WFSTComposer::Compose(const Hypergraph& src_forest, Hypergraph* trg_forest);
- friend void AddGrammarRule(const string& r, map<WordID, EGrammarNode>* g);
- public:
-#ifdef DEBUG_CHART_PARSER
- string hint;
-#endif
- EGrammarNode() : is_some_rule_complete(false), is_root(false) {}
- const map<WordID, EGrammarNode>& GetTerminals() const { return tptr; }
- const map<WordID, EGrammarNode>& GetNonTerminals() const { return ntptr; }
- bool HasNonTerminals() const { return (!ntptr.empty()); }
- bool HasTerminals() const { return (!tptr.empty()); }
- bool RuleCompletes() const {
- return (is_some_rule_complete || (ntptr.empty() && tptr.empty()));
- }
- bool GrammarContinues() const {
- return !(ntptr.empty() && tptr.empty());
- }
- bool IsRoot() const {
- return is_root;
- }
- // these are the features associated with the rule from the start
- // node up to this point. If you use these features, you must
- // not Extend() this rule.
- const SparseVector<double>& GetCFGProductionFeatures() const {
- return input_features;
- }
-
- const EGrammarNode* Extend(const WordID& t) const {
- if (t < 0) {
- map<WordID, EGrammarNode>::const_iterator it = ntptr.find(t);
- if (it == ntptr.end()) return NULL;
- return &it->second;
- } else {
- map<WordID, EGrammarNode>::const_iterator it = tptr.find(t);
- if (it == tptr.end()) return NULL;
- return &it->second;
- }
- }
-
- private:
- map<WordID, EGrammarNode> tptr;
- map<WordID, EGrammarNode> ntptr;
- SparseVector<double> input_features;
- bool is_some_rule_complete;
- bool is_root;
-};
-typedef map<WordID, EGrammarNode> EGrammar; // indexed by the rule LHS
-
-// edges are immutable once created
-struct Edge {
-#ifdef DEBUG_CHART_PARSER
- static int id_count;
- const int id;
-#endif
- const WordID cat; // lhs side of rule proved/being proved
- const EGrammarNode* const dot; // dot position
- const WFSTNode* const q; // start of span
- const WFSTNode* const r; // end of span
- const Edge* const active_parent; // back pointer, NULL for PREDICT items
- const Edge* const passive_parent; // back pointer, NULL for SCAN and PREDICT items
- TRulePtr tps; // translations
- boost::shared_ptr<SparseVector<double> > features; // features from CFG rule
-
- bool IsPassive() const {
- // when a rule is completed, this value will be set
- return static_cast<bool>(features);
- }
- bool IsActive() const { return !IsPassive(); }
- bool IsInitial() const {
- return !(active_parent || passive_parent);
- }
- bool IsCreatedByScan() const {
- return active_parent && !passive_parent && !dot->IsRoot();
- }
- bool IsCreatedByPredict() const {
- return dot->IsRoot();
- }
- bool IsCreatedByComplete() const {
- return active_parent && passive_parent;
- }
-
- // constructor for PREDICT
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* q_and_r) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(q_and_r), r(q_and_r), active_parent(NULL), passive_parent(NULL), tps() {}
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* q_and_r, const Edge* act_parent) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(q_and_r), r(q_and_r), active_parent(act_parent), passive_parent(NULL), tps() {}
-
- // constructors for SCAN
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* i, const WFSTNode* j,
- const Edge* act_par, const TRulePtr& translations) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(i), r(j), active_parent(act_par), passive_parent(NULL), tps(translations) {}
-
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* i, const WFSTNode* j,
- const Edge* act_par, const TRulePtr& translations,
- const SparseVector<double>& feats) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(i), r(j), active_parent(act_par), passive_parent(NULL), tps(translations),
- features(new SparseVector<double>(feats)) {}
-
- // constructors for COMPLETE
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* i, const WFSTNode* j,
- const Edge* act_par, const Edge *pas_par) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(i), r(j), active_parent(act_par), passive_parent(pas_par), tps() {
- assert(pas_par->IsPassive());
- assert(act_par->IsActive());
- }
-
- Edge(WordID c, const EGrammarNode* d, const WFSTNode* i, const WFSTNode* j,
- const Edge* act_par, const Edge *pas_par, const SparseVector<double>& feats) :
-#ifdef DEBUG_CHART_PARSER
- id(++id_count),
-#endif
- cat(c), dot(d), q(i), r(j), active_parent(act_par), passive_parent(pas_par), tps(),
- features(new SparseVector<double>(feats)) {
- assert(pas_par->IsPassive());
- assert(act_par->IsActive());
- }
-
- // constructor for COMPLETE query
- Edge(const WFSTNode* _r) :
-#ifdef DEBUG_CHART_PARSER
- id(0),
-#endif
- cat(0), dot(NULL), q(NULL),
- r(_r), active_parent(NULL), passive_parent(NULL), tps() {}
- // constructor for MERGE quere
- Edge(const WFSTNode* _q, int) :
-#ifdef DEBUG_CHART_PARSER
- id(0),
-#endif
- cat(0), dot(NULL), q(_q),
- r(NULL), active_parent(NULL), passive_parent(NULL), tps() {}
-};
-#ifdef DEBUG_CHART_PARSER
-int Edge::id_count = 0;
-#endif
-
-ostream& operator<<(ostream& os, const Edge& e) {
- string type = "PREDICT";
- if (e.IsCreatedByScan())
- type = "SCAN";
- else if (e.IsCreatedByComplete())
- type = "COMPLETE";
- os << "["
-#ifdef DEBUG_CHART_PARSER
- << '(' << e.id << ") "
-#else
- << '(' << &e << ") "
-#endif
- << "q=" << e.q << ", r=" << e.r
- << ", cat="<< TD::Convert(e.cat*-1) << ", dot="
- << e.dot
-#ifdef DEBUG_CHART_PARSER
- << e.dot->hint
-#endif
- << (e.IsActive() ? ", Active" : ", Passive")
- << ", " << type;
-#ifdef DEBUG_CHART_PARSER
- if (e.active_parent) { os << ", act.parent=(" << e.active_parent->id << ')'; }
- if (e.passive_parent) { os << ", psv.parent=(" << e.passive_parent->id << ')'; }
-#endif
- if (e.tps) { os << ", tps=" << e.tps->AsString(); }
- return os << ']';
-}
-
-struct Traversal {
- const Edge* const edge; // result from the active / passive combination
- const Edge* const active;
- const Edge* const passive;
- Traversal(const Edge* me, const Edge* a, const Edge* p) : edge(me), active(a), passive(p) {}
-};
-
-struct UniqueTraversalHash {
- size_t operator()(const Traversal* t) const {
- size_t x = 5381;
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(t->active);
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(t->passive);
- x = ((x << 5) + x) ^ t->edge->IsActive();
- return x;
- }
-};
-
-struct UniqueTraversalEquals {
- size_t operator()(const Traversal* a, const Traversal* b) const {
- return (a->passive == b->passive && a->active == b->active && a->edge->IsActive() == b->edge->IsActive());
- }
-};
-
-struct UniqueEdgeHash {
- size_t operator()(const Edge* e) const {
- size_t x = 5381;
- if (e->IsActive()) {
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->dot);
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->q);
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->r);
- x = ((x << 5) + x) ^ static_cast<size_t>(e->cat);
- x += 13;
- } else { // with passive edges, we don't care about the dot
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->q);
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->r);
- x = ((x << 5) + x) ^ static_cast<size_t>(e->cat);
- }
- return x;
- }
-};
-
-struct UniqueEdgeEquals {
- bool operator()(const Edge* a, const Edge* b) const {
- if (a->IsActive() != b->IsActive()) return false;
- if (a->IsActive()) {
- return (a->cat == b->cat) && (a->dot == b->dot) && (a->q == b->q) && (a->r == b->r);
- } else {
- return (a->cat == b->cat) && (a->q == b->q) && (a->r == b->r);
- }
- }
-};
-
-struct REdgeHash {
- size_t operator()(const Edge* e) const {
- size_t x = 5381;
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->r);
- return x;
- }
-};
-
-struct REdgeEquals {
- bool operator()(const Edge* a, const Edge* b) const {
- return (a->r == b->r);
- }
-};
-
-struct QEdgeHash {
- size_t operator()(const Edge* e) const {
- size_t x = 5381;
- x = ((x << 5) + x) ^ reinterpret_cast<size_t>(e->q);
- return x;
- }
-};
-
-struct QEdgeEquals {
- bool operator()(const Edge* a, const Edge* b) const {
- return (a->q == b->q);
- }
-};
-
-struct EdgeQueue {
- queue<const Edge*> q;
- EdgeQueue() {}
- void clear() { while(!q.empty()) q.pop(); }
- bool HasWork() const { return !q.empty(); }
- const Edge* Next() { const Edge* res = q.front(); q.pop(); return res; }
- void AddEdge(const Edge* s) { q.push(s); }
-};
-
-class CFG_WFSTComposerImpl {
- public:
- CFG_WFSTComposerImpl(WordID start_cat,
- const WFSTNode* q_0,
- const WFSTNode* q_final) : start_cat_(start_cat), q_0_(q_0), q_final_(q_final) {}
-
- // returns false if the intersection is empty
- bool Compose(const EGrammar& g, Hypergraph* forest) {
- goal_node = NULL;
- EGrammar::const_iterator sit = g.find(start_cat_);
- forest->ReserveNodes(kMAX_NODES);
- assert(sit != g.end());
- Edge* init = new Edge(start_cat_, &sit->second, q_0_);
- assert(IncorporateNewEdge(init));
- while (exp_agenda.HasWork() || agenda.HasWork()) {
- while(exp_agenda.HasWork()) {
- const Edge* edge = exp_agenda.Next();
- FinishEdge(edge, forest);
- }
- if (agenda.HasWork()) {
- const Edge* edge = agenda.Next();
-#ifdef DEBUG_CHART_PARSER
- cerr << "processing (" << edge->id << ')' << endl;
-#endif
- if (edge->IsActive()) {
- if (edge->dot->HasTerminals())
- DoScan(edge);
- if (edge->dot->HasNonTerminals()) {
- DoMergeWithPassives(edge);
- DoPredict(edge, g);
- }
- } else {
- DoComplete(edge);
- }
- }
- }
- if (goal_node) {
- forest->PruneUnreachable(goal_node->id_);
- RemoveEpsilons(forest, kEPS);
- }
- FreeAll();
- return goal_node;
- }
-
- void FreeAll() {
- for (int i = 0; i < free_list_.size(); ++i)
- delete free_list_[i];
- free_list_.clear();
- for (int i = 0; i < traversal_free_list_.size(); ++i)
- delete traversal_free_list_[i];
- traversal_free_list_.clear();
- all_traversals.clear();
- exp_agenda.clear();
- agenda.clear();
- tps2node.clear();
- edge2node.clear();
- all_edges.clear();
- passive_edges.clear();
- active_edges.clear();
- }
-
- ~CFG_WFSTComposerImpl() {
- FreeAll();
- }
-
- // returns the total number of edges created during composition
- int EdgesCreated() const {
- return free_list_.size();
- }
-
- private:
- void DoScan(const Edge* edge) {
- // here, we assume that the FST will potentially have many more outgoing
- // edges than the grammar, which will be just a couple. If you want to
- // efficiently handle the case where both are relatively large, this code
- // will need to change how the intersection is done. The best general
- // solution would probably be the Baeza-Yates double binary search.
-
- const EGrammarNode* dot = edge->dot;
- const WFSTNode* r = edge->r;
- const map<WordID, EGrammarNode>& terms = dot->GetTerminals();
- for (map<WordID, EGrammarNode>::const_iterator git = terms.begin();
- git != terms.end(); ++git) {
-
- if (!(TD::Convert(git->first)[0] >= '0' && TD::Convert(git->first)[0] <= '9')) {
- std::cerr << "TERMINAL SYMBOL: " << TD::Convert(git->first) << endl;
- abort();
- }
- std::vector<std::pair<const WFSTNode*, TRulePtr> > extensions = r->ExtendInput(atoi(TD::Convert(git->first).c_str()));
- for (unsigned nsi = 0; nsi < extensions.size(); ++nsi) {
- const WFSTNode* next_r = extensions[nsi].first;
- const EGrammarNode* next_dot = &git->second;
- const bool grammar_continues = next_dot->GrammarContinues();
- const bool rule_completes = next_dot->RuleCompletes();
- if (extensions[nsi].second)
- cerr << "!!! " << extensions[nsi].second->AsString() << endl;
- // cerr << " rule completes: " << rule_completes << " after consuming " << TD::Convert(git->first) << endl;
- assert(grammar_continues || rule_completes);
- const SparseVector<double>& input_features = next_dot->GetCFGProductionFeatures();
- if (rule_completes)
- IncorporateNewEdge(new Edge(edge->cat, next_dot, edge->q, next_r, edge, extensions[nsi].second, input_features));
- if (grammar_continues)
- IncorporateNewEdge(new Edge(edge->cat, next_dot, edge->q, next_r, edge, extensions[nsi].second));
- }
- }
- }
-
- void DoPredict(const Edge* edge, const EGrammar& g) {
- const EGrammarNode* dot = edge->dot;
- const map<WordID, EGrammarNode>& non_terms = dot->GetNonTerminals();
- for (map<WordID, EGrammarNode>::const_iterator git = non_terms.begin();
- git != non_terms.end(); ++git) {
- const WordID nt_to_predict = git->first;
- //cerr << edge->id << " -- " << TD::Convert(nt_to_predict*-1) << endl;
- EGrammar::const_iterator egi = g.find(nt_to_predict);
- if (egi == g.end()) {
- cerr << "[ERROR] Can't find any grammar rules with a LHS of type "
- << TD::Convert(-1*nt_to_predict) << '!' << endl;
- continue;
- }
- assert(edge->IsActive());
- const EGrammarNode* new_dot = &egi->second;
- Edge* new_edge = new Edge(nt_to_predict, new_dot, edge->r, edge);
- IncorporateNewEdge(new_edge);
- }
- }
-
- void DoComplete(const Edge* passive) {
-#ifdef DEBUG_CHART_PARSER
- cerr << " complete: " << *passive << endl;
-#endif
- const WordID completed_nt = passive->cat;
- const WFSTNode* q = passive->q;
- const WFSTNode* next_r = passive->r;
- const Edge query(q);
- const pair<unordered_multiset<const Edge*, REdgeHash, REdgeEquals>::iterator,
- unordered_multiset<const Edge*, REdgeHash, REdgeEquals>::iterator > p =
- active_edges.equal_range(&query);
- for (unordered_multiset<const Edge*, REdgeHash, REdgeEquals>::iterator it = p.first;
- it != p.second; ++it) {
- const Edge* active = *it;
-#ifdef DEBUG_CHART_PARSER
- cerr << " pos: " << *active << endl;
-#endif
- const EGrammarNode* next_dot = active->dot->Extend(completed_nt);
- if (!next_dot) continue;
- const SparseVector<double>& input_features = next_dot->GetCFGProductionFeatures();
- // add up to 2 rules
- if (next_dot->RuleCompletes())
- IncorporateNewEdge(new Edge(active->cat, next_dot, active->q, next_r, active, passive, input_features));
- if (next_dot->GrammarContinues())
- IncorporateNewEdge(new Edge(active->cat, next_dot, active->q, next_r, active, passive));
- }
- }
-
- void DoMergeWithPassives(const Edge* active) {
- // edge is active, has non-terminals, we need to find the passives that can extend it
- assert(active->IsActive());
- assert(active->dot->HasNonTerminals());
-#ifdef DEBUG_CHART_PARSER
- cerr << " merge active with passives: ACT=" << *active << endl;
-#endif
- const Edge query(active->r, 1);
- const pair<unordered_multiset<const Edge*, QEdgeHash, QEdgeEquals>::iterator,
- unordered_multiset<const Edge*, QEdgeHash, QEdgeEquals>::iterator > p =
- passive_edges.equal_range(&query);
- for (unordered_multiset<const Edge*, QEdgeHash, QEdgeEquals>::iterator it = p.first;
- it != p.second; ++it) {
- const Edge* passive = *it;
- const EGrammarNode* next_dot = active->dot->Extend(passive->cat);
- if (!next_dot) continue;
- const WFSTNode* next_r = passive->r;
- const SparseVector<double>& input_features = next_dot->GetCFGProductionFeatures();
- if (next_dot->RuleCompletes())
- IncorporateNewEdge(new Edge(active->cat, next_dot, active->q, next_r, active, passive, input_features));
- if (next_dot->GrammarContinues())
- IncorporateNewEdge(new Edge(active->cat, next_dot, active->q, next_r, active, passive));
- }
- }
-
- // take ownership of edge memory, add to various indexes, etc
- // returns true if this edge is new
- bool IncorporateNewEdge(Edge* edge) {
- free_list_.push_back(edge);
- if (edge->passive_parent && edge->active_parent) {
- Traversal* t = new Traversal(edge, edge->active_parent, edge->passive_parent);
- traversal_free_list_.push_back(t);
- if (all_traversals.find(t) != all_traversals.end()) {
- return false;
- } else {
- all_traversals.insert(t);
- }
- }
- exp_agenda.AddEdge(edge);
- return true;
- }
-
- bool FinishEdge(const Edge* edge, Hypergraph* hg) {
- bool is_new = false;
- if (all_edges.find(edge) == all_edges.end()) {
-#ifdef DEBUG_CHART_PARSER
- cerr << *edge << " is NEW\n";
-#endif
- all_edges.insert(edge);
- is_new = true;
- if (edge->IsPassive()) passive_edges.insert(edge);
- if (edge->IsActive()) active_edges.insert(edge);
- agenda.AddEdge(edge);
- } else {
-#ifdef DEBUG_CHART_PARSER
- cerr << *edge << " is NOT NEW.\n";
-#endif
- }
- AddEdgeToTranslationForest(edge, hg);
- return is_new;
- }
-
- // build the translation forest
- void AddEdgeToTranslationForest(const Edge* edge, Hypergraph* hg) {
- assert(hg->nodes_.size() < kMAX_NODES);
- Hypergraph::Node* tps = NULL;
- // first add any target language rules
- if (edge->tps) {
- Hypergraph::Node*& node = tps2node[(size_t)edge->tps.get()];
- if (!node) {
- // cerr << "Creating phrases for " << edge->tps << endl;
- const TRulePtr& rule = edge->tps;
- node = hg->AddNode(kPHRASE);
- Hypergraph::Edge* hg_edge = hg->AddEdge(rule, Hypergraph::TailNodeVector());
- hg_edge->feature_values_ += rule->GetFeatureValues();
- hg->ConnectEdgeToHeadNode(hg_edge, node);
- }
- tps = node;
- }
- Hypergraph::Node*& head_node = edge2node[edge];
- if (!head_node)
- head_node = hg->AddNode(kPHRASE);
- if (edge->cat == start_cat_ && edge->q == q_0_ && edge->r == q_final_ && edge->IsPassive()) {
- assert(goal_node == NULL || goal_node == head_node);
- goal_node = head_node;
- }
- Hypergraph::TailNodeVector tail;
- SparseVector<double> extra;
- if (edge->IsCreatedByPredict()) {
- // extra.set_value(FD::Convert("predict"), 1);
- } else if (edge->IsCreatedByScan()) {
- tail.push_back(edge2node[edge->active_parent]->id_);
- if (tps) {
- tail.push_back(tps->id_);
- }
- //extra.set_value(FD::Convert("scan"), 1);
- } else if (edge->IsCreatedByComplete()) {
- tail.push_back(edge2node[edge->active_parent]->id_);
- tail.push_back(edge2node[edge->passive_parent]->id_);
- //extra.set_value(FD::Convert("complete"), 1);
- } else {
- assert(!"unexpected edge type!");
- }
- //cerr << head_node->id_ << "<--" << *edge << endl;
-
-#ifdef DEBUG_CHART_PARSER
- for (int i = 0; i < tail.size(); ++i)
- if (tail[i] == head_node->id_) {
- cerr << "ERROR: " << *edge << "\n i=" << i << endl;
- if (i == 1) { cerr << "\tP: " << *edge->passive_parent << endl; }
- if (i == 0) { cerr << "\tA: " << *edge->active_parent << endl; }
- assert(!"self-loop found!");
- }
-#endif
- Hypergraph::Edge* hg_edge = NULL;
- if (tail.size() == 0) {
- hg_edge = hg->AddEdge(kEPSRule, tail);
- } else if (tail.size() == 1) {
- hg_edge = hg->AddEdge(kX1, tail);
- } else if (tail.size() == 2) {
- hg_edge = hg->AddEdge(kX1X2, tail);
- }
- if (edge->features)
- hg_edge->feature_values_ += *edge->features;
- hg_edge->feature_values_ += extra;
- hg->ConnectEdgeToHeadNode(hg_edge, head_node);
- }
-
- Hypergraph::Node* goal_node;
- EdgeQueue exp_agenda;
- EdgeQueue agenda;
- unordered_map<size_t, Hypergraph::Node*> tps2node;
- unordered_map<const Edge*, Hypergraph::Node*, UniqueEdgeHash, UniqueEdgeEquals> edge2node;
- unordered_set<const Traversal*, UniqueTraversalHash, UniqueTraversalEquals> all_traversals;
- unordered_set<const Edge*, UniqueEdgeHash, UniqueEdgeEquals> all_edges;
- unordered_multiset<const Edge*, QEdgeHash, QEdgeEquals> passive_edges;
- unordered_multiset<const Edge*, REdgeHash, REdgeEquals> active_edges;
- vector<Edge*> free_list_;
- vector<Traversal*> traversal_free_list_;
- const WordID start_cat_;
- const WFSTNode* const q_0_;
- const WFSTNode* const q_final_;
-};
-
-#ifdef DEBUG_CHART_PARSER
-static string TrimRule(const string& r) {
- size_t start = r.find(" |||") + 5;
- size_t end = r.rfind(" |||");
- return r.substr(start, end - start);
-}
-#endif
-
-void AddGrammarRule(const string& r, EGrammar* g) {
- const size_t pos = r.find(" ||| ");
- if (pos == string::npos || r[0] != '[') {
- cerr << "Bad rule: " << r << endl;
- return;
- }
- const size_t rpos = r.rfind(" ||| ");
- string feats;
- string rs = r;
- if (rpos != pos) {
- feats = r.substr(rpos + 5);
- rs = r.substr(0, rpos);
- }
- string rhs = rs.substr(pos + 5);
- string trule = rs + " ||| " + rhs + " ||| " + feats;
- TRule tr(trule);
- cerr << "X: " << tr.e_[0] << endl;
-#ifdef DEBUG_CHART_PARSER
- string hint_last_rule;
-#endif
- EGrammarNode* cur = &(*g)[tr.GetLHS()];
- cur->is_root = true;
- for (int i = 0; i < tr.FLength(); ++i) {
- WordID sym = tr.f()[i];
-#ifdef DEBUG_CHART_PARSER
- hint_last_rule = TD::Convert(sym < 0 ? -sym : sym);
- cur->hint += " <@@> (*" + hint_last_rule + ") " + TrimRule(tr.AsString());
-#endif
- if (sym < 0)
- cur = &cur->ntptr[sym];
- else
- cur = &cur->tptr[sym];
- }
-#ifdef DEBUG_CHART_PARSER
- cur->hint += " <@@> (" + hint_last_rule + "*) " + TrimRule(tr.AsString());
-#endif
- cur->is_some_rule_complete = true;
- cur->input_features = tr.GetFeatureValues();
-}
-
-CFG_WFSTComposer::~CFG_WFSTComposer() {
- delete pimpl_;
-}
-
-CFG_WFSTComposer::CFG_WFSTComposer(const WFST& wfst) {
- InitializeConstants();
- pimpl_ = new CFG_WFSTComposerImpl(kUNIQUE_START, wfst.Initial(), wfst.Final());
-}
-
-bool CFG_WFSTComposer::Compose(const Hypergraph& src_forest, Hypergraph* trg_forest) {
- // first, convert the src forest into an EGrammar
- EGrammar g;
- const int nedges = src_forest.edges_.size();
- const int nnodes = src_forest.nodes_.size();
- vector<int> cats(nnodes);
- bool assign_cats = false;
- for (int i = 0; i < nnodes; ++i)
- if (assign_cats) {
- cats[i] = TD::Convert("CAT_" + boost::lexical_cast<string>(i)) * -1;
- } else {
- cats[i] = src_forest.nodes_[i].cat_;
- }
- // construct the grammar
- for (int i = 0; i < nedges; ++i) {
- const Hypergraph::Edge& edge = src_forest.edges_[i];
- const vector<WordID>& src = edge.rule_->f();
- EGrammarNode* cur = &g[cats[edge.head_node_]];
- cur->is_root = true;
- int ntc = 0;
- for (int j = 0; j < src.size(); ++j) {
- WordID sym = src[j];
- if (sym <= 0) {
- sym = cats[edge.tail_nodes_[ntc]];
- ++ntc;
- cur = &cur->ntptr[sym];
- } else {
- cur = &cur->tptr[sym];
- }
- }
- cur->is_some_rule_complete = true;
- cur->input_features = edge.feature_values_;
- }
- EGrammarNode& goal_rule = g[kUNIQUE_START];
- assert((goal_rule.ntptr.size() == 1 && goal_rule.tptr.size() == 0) ||
- (goal_rule.ntptr.size() == 0 && goal_rule.tptr.size() == 1));
-
- return pimpl_->Compose(g, trg_forest);
-}
-
-bool CFG_WFSTComposer::Compose(istream* in, Hypergraph* trg_forest) {
- EGrammar g;
- while(*in) {
- string line;
- getline(*in, line);
- if (line.empty()) continue;
- AddGrammarRule(line, &g);
- }
-
- return pimpl_->Compose(g, trg_forest);
-}